Intramedullary rod for pivoting a fastener

ABSTRACT

An intramedullary rod for use with a fastener to repair a femur includes an elongate nail extending along a longitudinal axis and having a stem and a head. The head is provided with an aperture extending along an axis at an angle to the longitudinal axis for receiving the fastener. A mechanism is carried by the head for pivoting the axis of the aperture from a first angled position relative to the head to a second angled position relative to the head. A method for using the rod and fastener is provided.

CROSS REFERENCE TO RELATED APPLICATION

This application claims priority to U.S. provisional patent applicationSer. No. 60/936,887 filed Jun. 22, 2007, the entire content of which isincorporated herein by this reference.

FIELD OF THE INVENTION

The present invention relates to apparatus for treating bones and, moreparticularly, to an intramedullary rod for treating femoral fractures.

BACKGROUND OF THE INVENTION

There are a variety of devices used to treat femoral fractures.Peritrochanteric fractures of the femur have been treated with femoralrod assemblies that for example are inserted into the femoral canal tocoapt the femur fractured parts. One or two angled cross-nails orlocking screws are inserted through the femur and the proximal end ofthe intramedullary rod.

Currently available nails have been provided with static angled screwsthat transverse the femoral nail and then achieve adequate fixationstrength in the head of the femur. They may also have slots in the nailthat allow for dynamic controlled or uncontrolled compression of thefracture site in fractures of the subtrochanteric region and below,either with or without an over sleeve. Frequently, devices that treatfemoral neck, intertrochanteric, and subtrochanteric fractures havevarying static angles that necessitate an increased inventory toaccommodate for varied static angles of the nail.

SUMMARY OF THE INVENTION

An intramedullary rod for use with a fastener to repair a femur isprovided and includes an elongate nail extending along a longitudinalaxis and having a stem and a head. The head is provided with an apertureextending along an axis at an angle to the longitudinal axis forreceiving the fastener. A mechanism is carried by the head for pivotingthe axis of the aperture from a first angled position relative to thehead to a second angled position relative to the head. A method forusing the rod and fastener is provided.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings described herein are for illustration purposes only and arenot intended to limit the scope of the present disclosure in any way.

FIG. 1 is a front view of one embodiment of an intramedullary rod withpivotable fastener of the present invention.

FIG. 2 is a side view of the intramedullary rod with pivotable fastenerof FIG. 1 taken along the line 2-2 of FIG. 1.

FIG. 3 is a rear view, partially sectioned, of the intramedullary rodwith pivotable fastener of FIG. 1 taken along the line 3-3 of FIG. 2.

FIG. 4 is an enlarged cross sectional view of the intramedullary rodwith pivotable fastener of FIG. 1 taken along the line 4-4 of FIG. 3.

FIG. 5 is an exploded view of the head of the intramedullary rod withpivotable fastener of FIG. 1.

FIG. 6 is a side exploded view of the head of the intramedullary rodwith pivotable fastener of FIG. 1 taken along the line 6-6 of FIG. 5.

FIG. 7 is a front view of the nail of the intramedullary rod withpivotable fastener of FIG. 1 with the components of the actuationmechanism removed.

FIG. 8 is a side view of the nail of FIG. 7 taken along the line 8-8 ofFIG. 7.

FIG. 9 is a cross-sectional view of the nail of FIG. 7 taken along theline 9-9 of FIG. 7.

FIG. 10 is a cross-sectional view of the proximal portion of the nail ofFIG. 7 taken along the line 10-10 of FIG. 8.

FIG. 11 is a side view of the head of the nail of FIG. 7 taken along theline 11-11 of FIG. 10.

FIG. 12 is an top end view of the nail of FIG. 7 taken along the line12-12 of FIG. 11.

FIG. 13 is a cross-sectional view of the proximal portion of the nail ofFIG. 7 taken along the line 13-13 of FIG. 12.

FIG. 14 is a perspective view of the insert of the intramedullary rodwith pivotable fastener of FIG. 1.

FIG. 15 is a top view of the insert of FIG. 14 taken along the line15-15 of FIG. 14.

FIG. 16 is an end view of the insert of FIG. 14 taken along the line16-16 of FIG. 15.

FIG. 17 is a cross-sectional view of the insert of FIG. 14 taken alongthe line 17-17 of FIG. 16.

FIG. 18 is a perspective view of the end nut of the intramedullary rodwith pivotable fastener of FIG. 1.

FIG. 19 is a side view of the end nut of FIG. 18 taken along the line19-19 of FIG. 18.

FIG. 20 is bottom end view of the end nut of FIG. 18 taken along theline 20-20 of FIG. 18.

FIG. 21 is top end view of the end nut of FIG. 18 taken along the line21-21 of FIG. 19.

FIG. 22 is a cross-sectional view of the end nut of FIG. 18 taken alongthe line 22-22 of FIG. 21.

FIG. 23 is a perspective view of the spindle of the intramedullary rodwith pivotable fastener of FIG. 1.

FIG. 24 is a side view of the spindle of FIG. 23 taken along the line24-24 of FIG. 23.

FIG. 25 is top end view of the spindle of FIG. 23 taken along the line25-25 of FIG. 24.

FIG. 26 is bottom end view of the spindle of FIG. 23 taken along theline 26-26 of FIG. 24.

FIG. 27 is a cross-sectional view of the spindle of FIG. 23 taken alongthe line 27-27 of FIG. 25.

FIG. 28 is a perspective view of the set screw of the intramedullary rodwith fastener of FIG. 1.

FIG. 29 is a side view of the set screw of FIG. 28 taken along the line29-29 of FIG. 28.

FIG. 30 is an end view of the set screw of FIG. 28 taken along the line30-30 of FIG. 29.

FIG. 31 is a cross-sectional view of the set screw of FIG. 28 takenalong the line 31-31 of FIG. 30.

FIG. 32 is a perspective view of the fastener of the intramedullary rodwith fastener of FIG. 1.

FIG. 33 is a side view of the fastener of FIG. 32 taken along the line33-33 of FIG. 32.

FIG. 34 is an end view of the fastener of FIG. 32 taken along the line34-34 of FIG. 33.

FIG. 35 is a cross-sectional view of the fastener of FIG. 32 taken alongthe line 35-35 of FIG. 34.

FIG. 36 is a front view of the proximal portion of the intramedullaryrod with pivotable fastener of FIG. 1 showing the fastener in the firstposition of FIG. 1 relative to the intramedullary rod and the fastenerin a second position relative pivoted counterclockwise to theintramedullary rod.

FIG. 37 is a cross-sectional view of the proximal portion of theintramedullary rod and pivotable fastener of FIG. 1 showing the fastenerin a third position relative to the intramedullary rod.

FIG. 38 is a front view of another embodiment of an intramedullary rodwith pivotable fasteners of the present invention.

FIG. 39 is a side view of the intramedullary rod with pivotablefasteners of FIG. 38 taken along the line 39-39 of FIG. 38.

FIG. 40 is a cross-sectional view of the intramedullary rod withpivotable fasteners of FIG. 38 taken along the line 40-40 of FIG. 39.

FIG. 41 is a perspective view of the insert of the intramedullary rodwith pivotable fasteners of FIG. 38.

FIG. 42 is a top view of the insert of FIG. 41 taken along the line42-42 of FIG. 41.

FIG. 43 is an end view of the insert of FIG. 41 taken along the line43-43 of FIG. 42.

FIG. 44 is a cross-sectional view of the insert of FIG. 41 taken alongthe line 44-44 of FIG. 43.

FIG. 45 is a perspective view of the spindle of the intramedullary rodwith pivotable fasteners of FIG. 38.

FIG. 46 is a side view of the spindle of FIG. 45 taken along the line46-46 of FIG. 45.

FIG. 47 is an end view of the spindle of FIG. 45 taken along the line47-47 of FIG. 46.

FIG. 48 is a cross-sectional view of the spindle of FIG. 45 taken alongthe line 48-48 of FIG. 47.

FIG. 49 is a side view of the set screw of the intramedullary rod withpivotable fasteners of FIG. 38.

FIG. 50 is an end view of the set screw of FIG. 49 taken along the line50-50 of FIG. 49.

FIG. 51 is a cross-sectional view of the set screw of FIG. 49 takenalong the line 51-51 of FIG. 50.

FIG. 52 is a perspective view of the set screw of FIG. 49 mounted on thespindle of FIG. 45.

FIG. 53 is a front view of a distal portion of a further embodiment ofan intramedullary rod with pivotable fasteners of the present invention.

FIG. 54 is a front view of a distal portion of a yet another embodimentof an intramedullary rod with pivotable fasteners of the presentinvention.

FIG. 55 is a side view of a distal portion of a yet a further embodimentof an intramedullary rod with pivotable fasteners of the presentinvention.

FIG. 56 is an end view of the intramedullary rod with pivotable fastenerof FIG. 55 taken along the line 56-56 of FIG. 55.

FIG. 57 is a schematic front view of the intramedullary rod withpivotable fasteners of FIG. 38 disposed in a femur to repair a femoralneck fracture.

FIG. 58 is a schematic front view of the intramedullary rod withpivotable fasteners of FIG. 38 disposed in a femur to repair anintertrochanteric fracture.

FIG. 59 is a schematic front view of the intramedullary rod withpivotable fasteners of FIG. 38 disposed in a femur to repair asubtrochanteric fracture.

DETAILED DESCRIPTION OF THE INVENTION

In general, an apparatus or device is provided for treating fractures,nonunions or malunions of the femur or other bones of a mammalian bodyand includes an intramedullary rod or nail and at least one fastenercarried by the rod. At least one opening is provided in the head of theapparatus for slidably receiving the one or more fasteners andpermitting the fastener or fasteners to pivot relative to the head ofthe apparatus.

In one preferred embodiment, the apparatus 61 of the invention comprisesan intramedullary rod 62 and a proximal fastener 63 pivotably carried bythe proximal portion of the rod (see FIGS. 1-3). The proximal fastener63 can be of any suitable type, including a fixation screw, a screw, apeg, a helical blade or any other fixation device, and for simplicity isreferred to herein as a fixation screw. The femoral nail or rod 62includes an elongate body 64 that extends along a longitudinal axis 66and can have a proximal portion or head 67, a central portion or neck 68and a distal portion or shaft 69 that terminates at a distal tip 71. Theelongate body 64 may curve in at least one portion of the shaft or stem69 to align the rod 62 along the length of the marrow canal of the femurwhen the rod is inserted in the femur. The elongate body 64 can be madefrom any suitable material such as stainless steel, titanium or anotheralloy and can have a length, dependent in part on the length in whichthe rod 62 is to be utilized, ranging from 180 to 500 centimeters. Thehead 67 of the nail 62 can have a length ranging from four to 15centimeters and preferably ranging from eight to 12 centimeters and adiameter ranging from eight to 20 millimeters.

A longitudinally-extending passageway or bore 76, shown in part in FIGS.3-4 and 9-10, can be provided and extends from a proximal opening 77 inthe head 67 to an opening 78 in the tip of the stem for permitting therod to slide along a guide wire during insertion of the rod into thefemur. The curve of the longitudinal axis 66, and thus the curve of thestem 69 of the rod 62, can be through a single plane or through multipleplanes. In the illustrated embodiment of nail 62, as shown in FIGS. 8,10, 12 and 13, the curve of body 64 extends through multiple planes. Atleast one and in one embodiment first and second bores 81, which canextend perpendicular to the longitudinal axis 66, are provided in thedistal end portion of the stem 69 adjacent the tapered tip 71 of thestem. The bores are sized to receive respective distal fasteners, suchas fixation screws, screws, pegs, helical blades or any other suitablefixation devices, and in one embodiment such distal fasteners are in theform of fixation screws or screws 82 that can be fixed at an orthogonalangle relative to stem 69. In the illustrated embodiment and as shown inFIGS. 1-2 and 7-9, the distal-most bore 81 is elongated in itstransverse direction, that is parallel to the longitudinal axis 66 ofthe stem 69, to permit the stem to be moved longitudinally relative tothe respective distal fastener or fixation screw 82 before tightening ofthe fastener or screw to the underlying portion of the femur.

At least one transverse apertures or opening 91 is provided through thehead 67 of the rod 62 and in one embodiment is angled toward theproximal end of the rod relative to longitudinal axis 66 for receivingthe proximal fixation screw or fixation screw 63. More specifically, theone or more transverse apertures or holes 91 each pivotably receive afixation screw 63 and allow for changing the angle made between thescrew 63 and the nail 62. Each such aperture or first hole can extendthrough the head 67 in an angled direction relative to longitudinal axis66 such that when the rod is in position within the marrow canal of thefemur, axis 92 of the opening is directed toward the head of the femur(see FIG. 13). As can be seen from FIGS. 5, 6 and 10-13, the transverseaperture or aperture 91 in the head 67 can communicate with a first orlateral transverse opening 93, through which the respective fixationscrew is inserted, and an opposite second or medial transverse opening94, from which the distal portion of the screw extends. The medialtransverse opening 94, as shown in FIGS. 5, 8, 11 and 13, can beelongate or oblong in a transverse direction, that is parallel tolongitudinal axis 66 of head 67 and body 64, so as to accommodatepivoting of the distal portion of the proximal fixation screw 63.

The head 67 of rod 62 may include an actuation or adjustment mechanismor assembly 101 for selectively pivoting the proximal fixation screw 63within the transverse aperture 91 (see FIGS. 4-31). In this regard, theproximal portion of the central passageway 76 of the nail 62 can behollowed to form a longitudinally-extending proximal recess 102 in thehead that communicates with a proximal opening 103 in the head. Asillustrated in FIGS. 12 and 13, the recess 102 can have a proximalportion 102 a, adjacent the proximal opening 103, and a segmentedcircular portion 102 b that extends in cross section through anysuitable angle preferably ranging from 180 to 240 degrees andillustrated in FIG. 12 as approximately 240 degrees, along the inside ofthe head 67 adjacent the medial transverse opening 94. Internal threads104 can be provided in proximal portion 102 a. The segmented circularportion or segmented portion 102 b of recess 102 may be formed from aninner arcuate surface 105. The other side of the recess 102, that is theside opposite of segmented portion 102 b, can be formed with a firstshelf 107, a second shelf 108 and a third shelf 109 that can each extendfurther radially inwardly than the inner arcuate surface 105 of thesegmented portion 102 b and can have increasingly smaller radii relativeto longitudinal axis 66 (see FIGS. 11-13). The proximal portion of thefirst shelf 107 can be optionally provided with internal threads 111, asshown in FIGS. 4, 9 and 10. A shoulder 112 can extend radially inwardlyfrom first shelf 107 to second shelf 108 (see FIG. 13). The third shelf109 may abut the lateral transverse opening 93, as shown in FIG. 11.Transversely aligned slots 110 may be provided on the proximal end ofhead 67 at proximal opening 103 for registering the nail 62 with aninsertion jig, targeting device or other suitable device when placing orotherwise manipulating the nail within the targeted bone.

Although the actuation mechanism 101 for pivoting the proximal fixationscrew 63 can be of any suitable type, in one embodiment the mechanism101 includes an insert or sleeve 116, a spindle 117, an end or safetynut 118 and an alignment or set screw 119, as shown in the explodedviews of FIGS. 5-6 and in the assembled view of FIG. 4. Each of thesecomponents can be made from any suitable material such as stainlesssteel.

Elongate insert or sleeve 116, as illustrated in FIGS. 14-17, may beformed from a tubular-like member 121 that can have a proximal portion122 and a distal portion 123 and a longitudinally-extending opening 124extending through one side. Sleeve 116 can have the shape of a cylinderwith an elongate cutout 126 provided along one side thereof, oppositeopening 124, that communicates with the longitudinal bore 127 extendingtherethrough from proximal or top end 128 and distal or bottom end 129.The planar top and bottom ends can extend parallel to each other. Assuch, sleeve 116 has a segmented circular or C shape when viewed from anend along its longitudinal axis, as shown in FIG. 16. Such transverse,cross-sectional configuration of sleeve 116 preferably approximates thecross-sectional configuration of the segmented circular portion 102 b ofthe recess 102 in head 67 and can extend through an arc ranging from 100to 360 degrees, preferably ranging from 180 to 240 degrees andillustrated in FIG. 16 as approximately 240 degrees. The elongatetransverse opening 124 can be formed in the center of the insert. Suchopening 124 may be oblong or elongate in shape and smaller than themedial transverse opening 94 provided in head 67 of the nail 62. Theinsert 116 may be provided with internal thread 131 extending throughthe bore 127 at the proximal portion 122 of the insert, such threadsbeing adjacent the top or proximal end of the insert as shown in FIGS.14 and 17. The insert can have a length ranging from 30 to 110millimeters and can have an external radius sized to fit within head 67of the nail 62. The distal portion of internal bore 127, that is theportion of the bore distal transverse opening 124, has a smallerinternal diameter than the internal diameter of the proximal portion ofthe bore.

Spindle 117 can be formed from a cylindrical body 136 provided with adistal portion 137 of constant radius and can have a smooth outercylindrical surface 138, a central portion 139 adjacent the distalportion and having external threads 141 extending radially outwardlyrelative to the distal portion and a proximal or neck portion 142adjacent the central portion (see FIGS. 18-22). The neck portion caninclude a proximal flange 143 and an annular recess 144 disposed betweenthe flange and the central portion 139 of the spindle 117. Thecylindrical body can further include a proximal or top end 147 and adistal or bottom end 148, as shown in FIG. 22. The planar ends 148 and148 may extend parallel to each other. A central passageway or bore 151can extend through the spindle. The distal portion of the centralpassageway may be provided with internal thread 152 and the proximalportion of the central passageway may be provided with any suitablecross-sectional configuration for serving as a drive socket 153. Thespindle can have a length ranging from five to 50 millimeters andpreferably approximately 15 millimeters.

End nut 118 can be formed from a cylindrical body 161 provided with adistal portion 162 of constant radius and a smooth outer surface 163 anda proximal portion 164 adjacent the distal portion and having externalthreads 166 extending radially outwardly relative to the distal portion(see FIGS. 23-27). The cylindrical body can further include a proximalor top end 167 and a distal or bottom end 168, as shown in FIG. 27.Planar ends 167 and 168 can extend parallel to each other. A centralpassageway or bore 171 can extend longitudinally through the end nutbetween ends 167 and 168 and at least the proximal portion of the bore171 can be provided with any suitable cross-sectional configuration forserving as a drive socket. The distal end portion of the end nut may beprovided with a recess or socket 172, that can be in communication withbore 171 and be side opening onto the outer cylindrical surface 163 ofthe distal portion 162. The socket 172 can be sized and configured forcooperatively receiving the neck portion 142 of the spindle 117 and mayinclude a partial annular flange 173, shown most clearly in FIG. 24,extending radially inwardly for partially seating in the annular recess144 of the spindle and a partial annular recess 174 extending radiallyoutwardly relative to the flange for receiving part of the proximal,annular flange 143 of the spindle. The end nut can have a length rangingfrom five to 50 millimeters and preferably approximately 15 millimeters.

Set screw 119 can be formed from a cylindrical body 181 provided with adistal portion 182 of constant radius and a smooth outer surface 183 anda proximal portion 184 adjacent the distal portion and having externalthreads 186 extending radially outwardly relative to the distal portion(see FIGS. 28-31). The cylindrical body 181 can further include aproximal or top end 187 and a distal or bottom end 188, as shown in FIG.29. A drive socket 191 of any suitable cross-sectional configuration mayextend longitudinally through at least a portion of the cylindrical bodyand open at the top end 187 of the body. The bottom end 188 of the bodycan be blunted. The set screw can have a length ranging from five to 60millimeters and preferably approximately 20 millimeters.

Proximal fastener 63 for use in the head 67 of the intramedullary rod 62can be of any suitable type and in one embodiment is made from anelongate cylindrical body 201 or spiral blade (not shown) having alength ranging from 40 to 200 millimeters and a diameter ranging fromtwo to 20 millimeters (see FIGS. 32-35). In the illustrated embodiment,the fastener is a fixation screw formed from a body having a threadedportion and a smooth portion. The elongate body 201 can be formed fromany suitable material such as stainless steel and include a proximalportion 202 having any outer cylindrical or irregular-shaped surface203. The proximal portion 202 may be provided with a plurality and asshown four longitudinally-extending slots 204 extending through thesurface 203 in circumferentially-spaced apart positions. Distal portion206 of the body 201 may be provided with external threads 207 thatextend to a sharpened distal end or tip 208 of the body. Alternatively,the distal portion 206 of the body 201 may be irregularly shaped or flat(not shown). The body can further have a proximal end 211 and beprovided with a central bore 212 that extends longitudinally through thebody from the proximal end 211 to the distal end 208 (see FIG. 35). Theproximal end of the central bore 212 may be provided with internalthreads 213 and be formed with a drive socket 214 of any suitable typefor facilitating connection of the proximal fixation screw to a drivetool of any suitable type.

Actuation assembly or mechanism 101 loaded into the head 67 of the nail62 in any suitable manner. In one method of assembly, insert or sleeve116 is slidably inserted through the proximal opening 103 of the headand slidably seated in the segmented circular portion 102 b of therecess 102 in the head. The transverse opening 124 in the insert 116 isin general registration with the medial transverse opening 94 in thehead 67. The proximal or neck portion 142 of spindle 117 is seated inthe socket 172 formed in the distal portion 162 of end nut 118 so thatthe end nut and spindle are coaxial along the central longitudinal axesof the end nut and spindle. The combined spindle 117 and end nut 118assembly are loaded into the head 67 by introducing the distal portion137 of the spindle into the proximal opening 103 in the head. A suitabledrive tool (not shown) can be used to engage the drive socket in thecentral bore 171 at the proximal portion 164 of the end nut to rotatethe end nut within the internal threads 104 adjacent the proximalopening 103 in the head so as to move the end nut 118, and the spindle117 captured thereby, longitudinally into the recess 102 of the headuntil the spindle seats is the distal portion of the first shelf 107against shoulder 112 extending between the first shelf 107 and thesecond shelf 108. As spindle 117 is moved distally within the recess 102of the head 67, the external threads 141 of the spindle engage theinternal threads 131 on the proximal portion 122 of insert 116. Thespindle can be moved longitudinally into threaded engagement with theinsert by engagement of the drive socket 153 in the proximal or neckportion 142 of spindle 117 with a suitable drive tool and clockwiserotation of the spindle within the recess 102 of the head 67.

The set screw 119 can thereafter be introduced through central bore 171of the end nut 118 and into central bore 151 of the spindle 117 untilthe external threads 186 provided on the proximal end portion 184 of theset screw engage the internal threads 152 provided within the distalportion 137 of the spindle. A suitable drive tool may be used to engagethe drive socket 191 in the proximal portion 184 of the set screw 119 tomove the set screw distally relative to the spindle 117 by therotational engagement of the external threads 186 on the set screw withthe internal threads 152 of the spindle. The distal portion 182 of theset screw can thus be moved distally of the spindle 117 into thetransverse aperture 91 in head 67 of the nail 62.

Upon insertion of the proximal fixation screw 63 into the transverseaperture 91 of the head 67, and through the transverse opening 124 inthe insert 116, the fixation screw can be pivoted about a transverseaxis of the head through an angle of up to 70 degrees and preferablyapproximately 30 degrees relative to the nail 62. In one embodiment,illustrated in the figures, the fixation screw 63 is pivotable between afirst position 216, extending at an angle α of approximately 115 degreesrelative to the stem 69 of the nail and shown in FIG. 36, and a secondposition 217, extending at an angle α of approximately 145 degreesrelative to the stem of the nail and shown in FIG. 37. The fixationscrew is shown in an intermediate position 218, extending at an angle αof approximately 130 degrees relative to the stem of the nail, in FIG.36. To so pivot the fixation screw, in one procedure the physicianrotates the spindle 117 within the head 67, for example by engaging thedrive socket 153 in the neck portion 142 of the spindle with a suitabledrive tool, so that the external threads 141 on the central portion 139of the spindle that engage the internal threads 131 within the insert116 cause the insert to move proximally within the head from a first ordistal position in the segmented circular portion (not shown) to asecond or proximal position in the segmented circular portion,illustrated in FIG. 37. The distal end of the transverse opening 124 inthe insert 116 engages the fixation screw during proximal movement ofthe insert within the head 67 to cause the fixation screw to pivotwithin the lateral transverse opening 93 of the transverse aperture 91of the head. When in its operational position within the head 67, shownin FIG. 37, the spindle 117 can rotate freely relative to the head andthe end cap 118. The set screw 119 can be rotated distally with thespindle 117 so that the blunted end 188 of the set screw seats withinone of the longitudinal slots 294 formed in the proximal portion 202 ofthe fixation screw 63 so as to rotatably lock the fixation screwrelative to the head 67 of the intramedullary rod 62 and thus inhibitundesirable further advancement or withdrawal of the screw 63 relativeto the rod 62.

Although the actuation mechanism 101 of intramedullary rod 62 has beenshown and described with a longitudinally movable insert or sleeve 116disposed within the nail, it is appreciated that an insert or sleeveslidably disposed on the outside of the nail 62 can be provided forpivoting the fixation screw 62 relative to the nail.

It is further appreciated that other embodiments of the intramedullaryrod of the present invention, for example with any plurality ofpivotable fasteners can be provided. Another apparatus 231 isillustrated in FIGS. 38-52 and can includes an intramedullary rod 232substantially similar to rod 62. Like reference numerals have beenutilized to describe like components of rods 62 and 232. Theintramedullary rod 232 has any suitable first and second proximalfasteners, shown as first and second proximal fixation screws 233 and234 that can each be substantially identical to proximal fixation screw63, pivotably received within respective first and second transverseapertures 236 and 237 that can each be substantially identical totransverse aperture 91 and extend along respective axes 92. The firstand second fasteners 233 and 234 extend parallel to each other, may ormay not be of the same length and may or may not be of the same type offastener. For example, the first fastener 233 may be a screw and thesecond fastener 234 may be a peg or blade. The apertures 236 and 237 areprovided in a head 239, substantially similar to head 67, of the rod232.

An actuation mechanism or assembly 241, substantially similar toactuation mechanism 101, can be provided with the head 239 of the rod232. Actuation mechanism 241, shown in an assembled position in FIG. 40,can include an insert or sleeve 242 substantially similar to the insert116 of mechanism 101 but having first and second transverse apertures246 and 247 similar to transverse aperture 91 of the sleeve 116 andextending at an angle to the longitudinal axis of the nail forrespectively receiving and pivoting the first and second fixation screws233 and 234 (see FIGS. 41-44). The axes 92 of the first and secondtransverse apertures 246 and 247 can be parallel to each other but mayalso not be parallel to each other. The insert 242 can have a lengthranging from 20 to 120 millimeters and an external radius sized to fitwithin head 239 of the nail 232. A spindle 256 can be provided that issubstantially similar to the spindle 117 but formed without the distalportion 137 of spindle 117 (see FIGS. 45-48). Instead, spindle 256 ofthe dual fixation screw rod 232 of FIGS. 38-52 has a proximal or neckportion 142 and a distal portion 257 substantially similar to centralportion 139 of the spindle 117. The spindle 256 can have a lengthranging from five to 30 millimeters. An end cap or nut 266 substantiallysimilar to end nut 118 but shorter in length can be further provided(see FIGS. 49-51). The end nut can have a length ranging from three to30 millimeters. The proximal portion 142 of spindle 256 is shown asbeing captured or seated in socket 172 in the distal portion 162 of endnut 266 in FIG. 52 so that the spindle and end cap are coaxially alignedin their operational positions relative to each other.

The components of actuation assembly 241 can be loaded into head 239 ofdual fixation screw rod 232, and operated therein with respect to firstand second proximal fixation screws 233 and 234, in substantially thesame manner as discussed above with respect to apparatus 61. Sleeve 242is shown in FIG. 40 in its distal position. The inclusion in apparatus241 of the second fixation screw 234 minimizes the need for a set screw,such as set screw 119, and preferably eliminates the need for such a setscrew. In this regard, the second proximal fixation screw is included inthe means or mechanism of the rod 232 for preventing rotation of thehead of the femur relative to the first proximal fixation screw 233during use of rod 232. It is appreciated that other means, such as anail, peg, blade or bolt, can be included in an intramedullary rod ofthe present invention for inhibiting rotation of the head of the femurrelative to the first fixation screw. The optional second aperture 237and second proximal fixation screw 234 allow sliding compression so asto prevent rotation and to adapt the apparatus or device to a variety ofapplications.

A further embodiment of the intramedullary rod with pivotable fastenersof the present invention is illustrated in FIG. 53 wherein an apparatus271 substantially similar to apparatus 61 and 231 is provided. Likereference numerals have been used to describe like components ofapparatus 61, 231 and 271. Intramedullary rod or nail 272 of theapparatus 271 is substantially similar to rods 62 and 232 and has anysuitable first and second proximal fasteners, shown as first and secondproximal fixation screws 233 and 234. The first screw 233 is pivotablyreceived within first transverse aperture 236 extending along axis 92.The second screw 234 is pivotably received within a second transverseaperture 273 extending along an axis 274. The aperture 273 can besubstantially identical to transverse aperture 236 except that axis 274of the second transverse aperture 273 is not parallel to the axis 92 ofthe first transverse aperture 236. The first and second fasteners 233and 234 extend nonparallel to each other, may or may not be of the samelength and may or may not be of the same type of fastener. The apertures236 and 273 are provided in a head 276 of the rod 272 that issubstantially similar to head 239 of rod 232. An actuation mechanism orassembly (not shown) substantially similar to actuation mechanism 241but modified to provide for the nonparallel disposition of apertures 236and 273 is provided.

Another embodiment in the form or apparatus 281 is illustrated in FIG.54 and can include an intramedullary rod 282 substantially similar torods 62 and 232. Like reference numerals have been utilized to describelike components of rods 62, 232 and 282. The intramedullary rod 282 hasany suitable first, second and third proximal fasteners, shown as first,second and third proximal fixation screws 233, 234 and 283, pivotablyreceived within respective first, second and third transverse apertures236, 237 and 286. The third proximal fixation screw 283 can be identicalto one or both of first and second proximal fixation screws 233 and 234,and the third transverse aperture 286 can be identical to one or both offirst and second transverse apertures 236 and 237. The first, second andthird fasteners 233, 234 and 283 may or may not extend parallel to eachother, may or may not be of the same length and may or may not be of thesame type of fastener. In the illustrated embodiment, the fasteners 233,234 and 283 extend parallel to each other. The apertures 236, 237 and286 are provided in a head 287 of the rod 282 that is substantiallysimilar to head 239 of rod 232. An actuation mechanism or assembly (notshown) substantially similar to actuation mechanism 241 but modified toprovide for the third transverse aperture 286 can be provided.

Yet a further embodiment of the intramedullary rod with pivotablefasteners of the present invention is illustrated in FIGS. 55-56 whereinan apparatus 296 substantially similar to apparatus 61 and 231 isprovided. Like reference numerals have been used to describe likecomponents of apparatus 61, 231 and 296. Intramedullary rod or nail 297of the apparatus 296 is substantially similar to rods 62 and 232 and hasany suitable first and second proximal fasteners, shown as first andsecond proximal fixation screws 233 and 234. The first screw 233 ispivotably received within first transverse aperture 236 extending alongaxis 92. The second screw 234 is pivotably received within a secondtransverse aperture 298 extending along an axis 299. The secondtransverse aperture 298 can be substantially identical to the firsttransverse aperture 236 except that axis 299 of the second transverseaperture 298 is not parallel to the axis 92 of the first transverseaperture 236. More specifically, axis 299 is circumferentially angledabout the longitudinal axis 66 of rod 297 relative to axis 92, as shownin FIG. 56 by, angle θ. Angle θ can be any suitable number. Axes 92 and299 can extend at the same angle relative to longitudinal axis 66, suchas axes 92 of rod 232 as shown in FIG. 38, or can extend at differentangles relative to longitudinal axis 66, such as axes 92 and 274 of rod272 as shown in FIG. 53. The first and second fasteners 233 and 234 mayor may not be of the same length and may or may not be of the same typeof fastener. The apertures 236 and 298 are provided in a head 301 of therod 297 that is substantially similar to head 239 of rod 232. Anactuation mechanism or assembly (not shown) substantially similar toactuation mechanism 241 but modified to provide for the differentcircumferential alignment of apertures 236 and 298 is provided.

It can be seen from the foregoing various embodiments of theintramedullary rod with pivotable fasteners of the present inventionthat such fasteners can be of any suitable number. Where multiplefasteners are provided, the fasteners can extend parallel to each otheror at various angles to each other relative to the longitudinal axis andabout the longitudinal axis of the nail. Extrapolations of theillustrated apparatus can be provided, for example where threenonparallel fasteners are provided, where multiple fasteners arecircumferentially aligned relative to each other about the longitudinalaxis of the rod but spaced the same distance from the proximal end ofthe rod or where two or more first fasteners are circumferentiallyaligned relative to such longitudinal axis and one or more secondfasteners are circumferentially spaced apart about such longitudinalaxis relative to the first fasteners.

Although the apparatus of the invention has been illustrated as having aseparate transverse aperture in the rod for each fastener, it isappreciated that multiple fasteners can pivotably extend through asingle transverse aperture. In one such embodiment in which a singletransverse aperture receives two fasteners, one or both of the aperturein the rod and the aperture in the actuation mechanism has aconfiguration that narrows between two end portions of such aperturesuch that the two fasteners extending through respective end portions ofsuch aperture are separated from each other by the narrowed material ofthe rod and/or the actuation mechanism.

Several procedures for utilizing the intramedullary rod with pivotablefixation screws of the present invention are illustrated in FIGS. 57-59,where apparatus 231 with dual fixation screw rod 232 is shown in use torepair peritrochanteric fractures of a femur 311. More specifically, 232rod is shown repairing a femoral neck fracture 316, an intertrochantericfracture 317 and a subtrochanteric fracture 318, respectively, in FIGS.57-59. Previous to the procedure of the invention, the rod 233 wasintroduced through the greater trochanter 321 into the medullary canal322 in the shaft 323 of the femur. Suitable holes 324 were made in theside of the greater trochanter to allow insertion of the first andsecond fixation screws 233 and 234 into the lateral transverse openings93 of the respective first and second transverse apertures 236 and 237in the head 239 of the rod. The fixation screws were thereafter screwedinto the head 326 of the femur 311. In each instance, however, furtheradjustment of the head of the femur may be required either because thefracture is malreduced, the entry point for the rod in the greatertrochanter was too lateral or a combination of the foregoing. In oneprocedure of the invention, a suitable drive (not shown) element isintroduced through the entry point 327 in the femur into the proximalopening 103 in the head 239 of the nail 232 and through the end nut 266so as to seat within the drive socket 153 in the neck portion 142 of thespindle 256. The spindle 256 is rotated by the drive element, forexample in a clockwise direction, so that the external threads 141 onthe spindle engaged with the internal threads 131 on the proximalportion 122 of the insert or sleeve 242 and cause the insert 242 toslide or move proximally within the head 239 and thus cause each of thefirst and second proximal fixation screws 233 and 234 to pivot upwardlytoward the head 239 of the rod, that is in a clockwise direction inFIGS. 57-59, until the fracture is reduced and the head 326 of the femur311 is brought out of varus and thus properly positioned relative to theremainder of the femur, as shown in phantom lines in FIGS. 57-59. Thefirst and second proximal fixation screws are identified as 233′ and234′ in FIGS. 57-59 when in their second position in which they havebeen pivoted upwardly toward the head 239 of the rod 232.

The capture of the neck portion 142 of the spindle 256 in the socket 172of the end nut 266 inhibits movement of the spindle 256 from its coaxialposition with the longitudinal axis of the head 239 and thus inhibitsundesirable movement of the insert 242, and the first and secondfixation screws 233 and 234 retained in position by the insert, that mayresult from such misalignment of the spindle 256 in the head 239 of therod. The second fixation screw 234 inhibits, if not prevents, rotationof the femoral head 326 relative to the first fixation screw 233.

It is appreciated that the apparatus of the invention can include morethan two proximal fasteners to fixate head 326 of the femur, or aportion of any other suitable bone, and be within the scope of thepresent invention.

As can be seen from the foregoing, an apparatus has been provided fortreating fractures of the femur that marries the fixation attributes ofan intramedullary nail with the benefits of a sliding compression screw.The apparatus provides a single device for treating a variety of femoralfractures, which heretofore have required more than one device. Thedevice can be used to treat a variety of femoral fractures and femoralosteotomies and permits hospitals and manufacturers to reduce thevariety of inventories of orthopedic surgical devices and thereby reducecosts. The device allows physicians to move the fracture or osteotomy toa more favorable position after implantation, and for example allowssliding compression of a femoral neck or intertrochanteric fracture. Theapparatus permits the physician to vary the angle of the proximalfixation screws extending into the head of the femur, which can be donebefore insertion or after insertion of the femoral rod into the femoralintramedullary canal.

What is claimed is:
 1. An intramedullary rod for use with a fastener torepair a bone in a mammalian body comprising an elongate nail extendingalong a central longitudinal axis and having a stem and a head, the headbeing provided with an aperture extending at an angle to the centrallongitudinal axis and adapted to receive the fastener, the aperturehaving opposite first and second side portions spaced from the centrallongitudinal axis, and a mechanism carried by the head for engaging thefastener in the first side portion of the aperture so as to pivot thefastener about a transverse axis spaced from the central longitudinalaxis in the second side portion of the aperture from a first angledposition relative to the head to a second angled position relative tothe head.
 2. The intramedullary rod of claim 1 for use with anadditional fastener wherein the head is provided with an additionalaperture extending at an angle to the longitudinal axis and adapted toreceive the additional fastener, the additional aperture having oppositefirst and second side portions spaced from the central longitudinalaxis, the mechanism being configured to engage the additional fastenerin the first side portion of the additional aperture so as to pivot thefastener about an additional transverse axis spaced from the centrallongitudinal axis in the second side portion of the additional aperturefrom a first angled position to a second angled position relative to thehead.
 3. The intramedullary rod of claim 2 wherein the aperture and theadditional aperture extend parallel to each other.
 4. The intramedullaryrod of claim 2 wherein the aperture and the additional aperture do notextend parallel to each other.
 5. The intramedullary rod of claim 2wherein the aperture and the additional aperture are circumferentiallyspaced apart about the longitudinal axis from each other.
 6. Theintramedullary rod of claim 1 wherein the mechanism is disposed withinthe head.
 7. The intramedullary rod of claim 6 wherein the head isprovided with a proximal opening along the longitudinal axis forpermitting adjustment of the mechanism in situ.
 8. An intramedullary rodfor use with a fastener to repair a bone in a mammalian body comprisingan elongate nail extending along a longitudinal axis and having a stemand a head, the head being provided with an aperture extending at anangle to the longitudinal axis and adapted to receive the fastener, anda mechanism carried by the head of the nail for pivoting the fastenerfrom a first angled position relative to the head to a second angledposition relative to the head, the head of the nail including a proximalend and the mechanism including a control element carried by the head ofthe nail and accessible at the proximal end for causing the mechanism topivot the fastener in situ.
 9. The intramedullary rod of claim 8 whereinthe mechanism is disposed in the head.
 10. The intramedullary rod ofclaim 8 wherein the control. element includes a screw.
 11. Anintramedullary rod for use with a fastener and a guide wire to repair abone in a mammalian body comprising an elongate nail extending along alongitudinal axis and having a stern and a head, the head being providedwith an aperture extending at an angle to the longitudinal axis andadapted to receive the fastener, and a mechanism carried by the head forpivoting the fastener from a first angled position relative to the headto a second angled position relative to the head, the elongate nailincluding a longitudinally-extending passageway and the mechanismincluding a longitudinal bore inclined relative of the aperture forreceiving the guide wire and thus permitting the elongate nail andmechanism to slide over the guide wire when being introduced into thebone.
 12. The intramedullary rod of claim 11 wherein the mechanism isdisposed in the head.
 13. The intramedullary rod of claim 11 wherein themechanism includes a control element in the head and accessible at theproximal end for causing the mechanism to pivot the fastener in situ.14. An intramedullary rod for use with a fastener to repair a bone in amammalian body comprising an elongate nail extending along alongitudinal axis and having a stem and a head, the head being providedwith an aperture extending at an angle to the longitudinal axis andadapted to receive the fastener, and a sleeve carried by the head andslidable longitudinally relative to the head to engage the fastener soas to pivot the fastener in situ from a first angled position relativeto the head to a second angled position relative to the head.
 15. Theintramedullary rod of claim 14 wherein the head includes a proximal end,further comprising a control element carried by the head and coupled tothe sleeve, the control element being accessible at the proximal end formoving the sleeve longitudinally relative to the head so as to pivot thefastener.
 16. The intramedullary rod of claim 14 wherein sleeve isprovided with an opening for receiving the fastener.
 17. Theintramedullary rod of claim 14 wherein the sleeve has a cross-sectionalconfiguration that is substantially C shaped.
 18. The intramedullary rodof claim 14 wherein the head is provided with first and second openingsfor forming at least part of the aperture, the movement of the sleevepivoting the fastener about the first opening.
 19. An intramedullary rodfor use with a fastener to repair a bone in a mammalian body comprisingan elongate nail extending along a longitudinal axis and having a stemand a head, the head having a proximal end and being provided with arecess extending along the longitudinal axis from an opening on thelongitudinal axis and having first and second additional openingscommunicating with the recess fir forming an aperture through the headextending at an angle to the longitudinal axis and adapted to receivethe fastener, a sleeve disposed in the recess of the head in thevicinity of the second opening and slidable along the longitudinal axisand a control element disposed in the head and coupled to the sleeve,the control element being accessible through the opening at the proximalend for moving the sleeve longitudinally relative to the head so as topivot the fastener in situ about the first opening from a first angledposition relative to the head to a second angled position relative tothe head.
 20. The intramedullary rod of claim 19 wherein sleeve isprovided with an opening for receiving the fastener.
 21. Theintramedullary rod of claim 19 wherein the sleeve has a cross-sectionalconfiguration that, is substantially C shaped.
 22. An intramedullary rodfor use with a fastener to repair a bone in a mammalian body comprisingan elongate nail extending along a longitudinal axis and having a stemand a head, the head having a proximal end and being provided with arecess and first and second openings communicating with the recess forforming an aperture through the head extending at an angle to thelongitudinal axis and adapted to receive the fastener, a sleeve providedwith an opening for receiving the fastener disposed in the recess of thehead and slidable along the longitudinal axis and a threaded controlelement disposed in the head and coupled to the sleeve, the threadedcontrol element being accessible at the proximal end for moving thesleeve longitudinally in the head so as to engage the fastener.
 23. Theintramedullary rod of claim 22 wherein the sleeve has a cross-sectionalconfiguration that is substantially C shaped.
 24. The intramedullary rodof claim 22 wherein the sleeve is configured to limit pivoting of thefastener about an axis.
 25. An intramedullary rod for use with afastener having an outer cylindrical surface provided with a pluralityof longitudinally-extending slots in the surface to repair a bone in amammalian body comprising an elongate nail extending along alongitudinal axis and having a stem and a head, the head having aproximal end and being provided with a recess and first and secondopenings communicating with the recess for forming an aperture throughthe head extending at an angle to the longitudinal axis and adapted toreceive the fastener, a sleeve disposed in the recess of the head andslidable along the longitudinal axis and being provided with atransverse opening for receiving the fastener, and a set screw at leastpartially disposed in the sleeve and being accessible at the proximalend for extending along the sleeve into one of the plurality oflongitudinally-extending slots in the fastener for rotatably locking thefastener relative to the head.
 26. The intramedullary rod of claim 25wherein the sleeve has a cross-sectional configuration that issubstantially C shaped.